Cent Eur J Public Health 2021, 29(4):265-270 | DOI: 10.21101/cejph.a6721

Private wells as potential sources of heavy metal exposure: a pilot study in northwest Slovakia

Miroslava Sovičová1, 2, Tibor Baška1, Stanislav Kuka1, Mária Tatarková1, Eliška Štefanová1, 2, Mária Marušiaková1, 2, Henrieta Hudečková1
1 Department of Public Health, Comenius University in Bratislava, Jessenius Faculty of Medicine in Martin, Martin, Slovak Republic
2 Regional Public Health Authority, Martin, Slovak Republic

Objectives: The aim of this study is to analyse levels of selected heavy metals: chromium (Cr), cadmium (Cd), copper (Cu), manganese (Mn), and lead (Pb), and to recognize factors related to wells' stewardship.

Methods: The pilot study was realized in May 2018 in three villages in northwest of Slovakia. We analysed 69 water samples from private wells. The data on wells and well owners were obtained by self-administered questionnaire. The samples were analysed by atomic absorption spectroscopy with graphite furnace GF AAS (AAS GBC XplorAA 5000 with GBC GF 5000) equipped with hollow cathode lamps. Levels of heavy metals were compared with parametric values for drinking water stated in the Resolution of the Ministry of Health of the Slovak Republic No. 247/2017 Coll.

Results: The results indicated spatial variability in some heavy metal levels. Cadmium was not quantified in any sample. Copper and chromium levels were below the parametric value. Parametric values for manganese and lead were exceeded in 19 (27.5%) and 2 (2.9%) samples, respectively. Only 18 owners tested water quality. Busyness and financial cost most frequently discouraged users to carry out the water quality analysis.

Conclusions: The presence of heavy metals in well water can pose a serious public health problem, especially in rural areas without public water supply. Education on heavy metals' risks targeted at well owners could increase the awareness of the issue and minimize possible public health consequences.

Klíčová slova: drinking water, exposure, heavy metals, private well stewardship, water, well

Vloženo: 20. leden 2021; Revidováno: 28. říjen 2021; Přijato: 28. říjen 2021; Zveřejněno: 31. prosinec 2021  Zobrazit citaci

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Sovičová M, Baška T, Kuka S, Tatarková M, Štefanová E, Marušiaková M, Hudečková H. Private wells as potential sources of heavy metal exposure: a pilot study in northwest Slovakia. Cent Eur J Public Health. 2021;29(4):265-270. doi: 10.21101/cejph.a6721. PubMed PMID: 35026064.
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    Reference

    1. Council Directive 98/83/EC of 3 November 1998 on the quality of water intended for human consumption. Off J Eur Communities. 1998 Dec 5;41(L330):32-54.
    2. Ander EL, Watts MJ, Smedley PL, Hamilton EM, Close R, Crabbe H, et al. Variability in the chemistry of private drinking water supplies and the impact of domestic treatment systems on water quality. Environ Geochem Health. 2016;38(6):1313-32. Přejít k původnímu zdroji... Přejít na PubMed...
    3. Decree No. 247 of the Ministry of Health of the Slovak Republic of October 9, 2017 on drinking water quality monitoring, program of monitoring and risk management in drinking water supply. Zbierka zákonov SR. 2017 Oct 13. (In Slovak.)
    4. Water Research Institute. What we know about drinking water in the Slovak Republic [Internet]. Bratislava: WRI; 2017 [cited 2021 Jan 10]. Available from: http://www.vuvh.sk/download/VaV/Vystupy/Letak-EN_web.pdf.
    5. Tchórzewska-Cieślak B, Pietrucha-Urbanik K, Szpak D. Safety problems of small water supply systems. J KONBiN. 2016;37(1):51-72. Přejít k původnímu zdroji...
    6. Tchounwou PB, Yedjou CG, Patlolla AK, Sutton DJ. Heavy metal toxicity and the environment. Exp Suppl. 2012;101:133-64. Přejít k původnímu zdroji... Přejít na PubMed...
    7. Thomson KK, Rahman A, Cooper TJ, Sarkas A. Exploring relevance public perceptions, and business models for establishment of private well water quality monitoring service. Int J Health Plann Manage. 2019;32(2):e1098-118. Přejít k původnímu zdroji... Přejít na PubMed...
    8. Bouchard MF, Surette C, Cormier P, Foucher D. Low level exposure to manganese from drinking water and cognition in school-age children. Neurotoxicology. 2018;64:110-17. Přejít k původnímu zdroji... Přejít na PubMed...
    9. Järup L, Alfvén T. Low level cadmium exposure, renal and bone effects-the OSCAR study. Biometals. 2004;17(5):505-9. Přejít k původnímu zdroji... Přejít na PubMed...
    10. Malin Igra A, Vahter M, Raqib B, Kippler M. Early-life cadmium exposure and bone-related biomarkers: a longitudinal study in children. Environ Health Perspect. 2019;127(3): 37003. doi: 10.1289/EHP3655. Přejít k původnímu zdroji... Přejít na PubMed...
    11. Rahman SM, Kuppler M, Tofail F, Bölte S, Hamadani JD, Vahter M. Manganese in drinking water and cognitive abilities and behavior at 10 years of age: a prospective cohort study. Environ Health Perspect. 2017;125(5):057003. doi: 10.1289/EHP631. Přejít k původnímu zdroji... Přejít na PubMed...
    12. Sanders AP, Claus Henn B, Wright RO. Perinatal and childhood exposure to cadmium, manganese, and metal mixtures and effects on cognition and behavior: a review of recent literature. Curr Environ Health Rep. 2015;2(3):284-94. Přejít k původnímu zdroji... Přejít na PubMed...
    13. Wani AL, Ara A, Usmani JA. Lead toxicity: a review. Interdiscip Toxicol. 2015;8(2):55-64. Přejít k původnímu zdroji... Přejít na PubMed...
    14. Elmadfa I, Meyer AL. Patterns of drinking and eating across the European Union: implications for hydration status. Nutr Rev. 2015:73 Suppl 2:141-7. Přejít k původnímu zdroji... Přejít na PubMed...
    15. United Nations Ecconomic Comission for Europe. No one left behind - good practices to ensure equitable acces to water and sanitation in Pan-European region. Geneva: United Nations; 2012.
    16. Hanzel V. Hydrogeology of the Kysuce Region. Podzemná voda. 2003;9(2):46-65. (In Slovak.)
    17. Van der Wal A. Understanding groundwater & wells in manual drilling. Papendrecht: PRACTICA foundation; 2010.
    18. Fox MA, Nachman KE, Anderson B, Lam J, Resnick B. Meeting the public health challenge of protecting private wells: proceedings and recommendations from an expert panel workshop. Sci Total Environ. 2016;554-55:113-8. Přejít k původnímu zdroji... Přejít na PubMed...
    19. Korsakova IA, Vakhobova RU, Daburov KN. Pollution of waters by heavy metals and Effects on the population health in places of waste water dump from the mining enterprises of Tajikistan. Cent Eur J Public Health. 2007;15 Suppl:S36.
    20. Cvečková V, Dietzová Z, Fajčíková K, Rapant S, Sedláková D, Stehlíková B. The impact of geological environment on health status of residents of the Slovak Republic. Bratislava: State Geological Institute of Dionyz Stur; 2016. (In Slovak.)
    21. Xiaorong W, Mingde H, Mingan S. Copper fertilizer effects on copper distribution and vertical transport in soils. Geoderma. 2007;138(3-4):213-20. Přejít k původnímu zdroji...
    22. Pieper KJ, Nystrom VE, Parks J, Jennings K, Faircloth H, Morgan JB, et al. Elevated lead in water of private wells poses health risks: case study in Macon County, North Carolina. Environ Sci Technol. 2018;52(7):4350-7. Přejít k původnímu zdroji... Přejít na PubMed...
    23. Milička J, Macek J. Historical and geochemical outlines of the oil-gas seepage near Turzovka town; Flysch belt, NW Slovakia. Acta Geologica Slovaca. 2012;4(1):7-13.
    24. Osuji LC, Onojake CM. Trace heavy metals associated with crude oil: a case study of Ebocha-8 oil-spill-polluted site in Niger Delta, Nigeria. Chem Biodivers. 2004;1(11):1708-15. Přejít k původnímu zdroji... Přejít na PubMed...
    25. Juda-Rezler K, Reizer M, Oudinet JP. Determination and analysis of PM10 source apportionment during episodes of air pollution in Central Eastern European urban areas: the case of wintertime 2006. Atmos Environ. 2011;45(36):6557-66. Přejít k původnímu zdroji...
    26. Černikovský L, Krejčí B, Blažek Z, Volná, V. Transboundary air-pollution transport in the Czech-Polish border region between the cities of Ostrava and Katowice. Cent Eur J. Public Health. 2016;24 Suppl:45-50. Přejít k původnímu zdroji... Přejít na PubMed...
    27. Malecki KC, Schultz AA, Severtson DJ, Anderson HA, VanDerslice JA. Private-well stewardship among a general population based sample of private well-owners. Sci Total Environ. 2017;601:1533-43. Přejít k původnímu zdroji... Přejít na PubMed...
    28. Kreutzwiser R, de Loë R, Imgrund, K, Conboy MJ, Simpson H, Plummer R. Understanding stewardship behaviour: factors facilitating and constraining private water well stewardship. J Environ Manage. 2011;92(4):1104-14. Přejít k původnímu zdroji... Přejít na PubMed...

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